Journal ArticleDOI
Effects of HF solution in the electroless deposition process on silicon surfaces
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In this paper, the influence of HF concentration on the initial stages of electroless deposition for various metals (Al, Au, Cu, Sn, and Pd) onto silicon using atomic force microscopy.Abstract:
We have investigated the influence of HF concentration on the initial stages of electroless deposition for various metals (Al, Au, Cu, Sn, and Pd) onto silicon using atomic force microscopy. As the HF concentration in the plating solution increased, the rate of metal deposition correspondingly increased for Au, Cu, and Pd. In the case of Au and Cu, uniformly sized nuclei comprised the first deposited layer. However for Al and Sn, deposition occurred only at sporadic sites on the surface and was independent of HF concentration. For all of the metal ion studied, deposition initiated preferentially at flaws on the surface. The electroless process indicates a direct displacement mechanism which results in the simultaneous dissolution of Si as the metal ion is reduced at the surface. For all the metal ions deposited in this manner, metal adhesion to the Si surface was poor.read more
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Journal ArticleDOI
Mercury Detection with Ag Nanoparticles Reduced on Si Thin Films
TL;DR: In this article, a surface plasmon resonance mercury sensor was demonstrated by electroless reduction of silver nanoparticles on amorphous silicon thin films, and the sensitivity to Hg was explored with varying nanoparticle size, which could be controlled by the immersion time associated with the reduction process.
DissertationDOI
Contact-displacement PD deposition for electroless copper application
TL;DR: The water needs of this region have changed in recent years from being primarily for agricultural purposes to domestic and industrial uses currently and in the future for other reasons.
Book ChapterDOI
Electroless Synthesis of Metallic Nanostructures for Biomedical Technologies
TL;DR: The electroless deposition of metals has emerged as one of the leading growth areas in surface engineering and metal finishing, and, recently, it is gaining interest for the synthesis of metallic nanostructures for biomedical technologies as mentioned in this paper.
Journal ArticleDOI
Formation of gold-capped silicon nanocolumns on silicon substrate
Konstantinas Leinartas,Povilas Miečinskas,Algirdas Selskis,V. Janušonienė,Algirdas Galdikas,Juras Ulbikas,A. Šetkus,R. Kaliasas,E. Juzeliunas +8 more
TL;DR: Gold-capped silicon nanocolumns regularly distributed over silicon substrate were obtained in this paper, where the columns length was roughly 100 nm; their deviation from perpendicular axis was less than 2°.